Ten cultivars of malting barley grown at four locations were malted and assayed for six enzymes involved in the degradation of nucleic acids. Among these enzymes were deoxyrinonuclease, ribonuclease, phosphodiesterase, 3'- and 5'- nucleotidases and phosphomonesterase. Activities of all enzymes in five-day malts were significantly affected by variety and location of growth. The average levels of ribonuclease, deoxyribonuclease, 3'-nucleotidase and 5'-nucleotidase of 80 five-day malts were 11.2, 5.7, 5.6 and 1.2 units per gram of malt, respectively. Six-rowed barley malts contained higher levels of deoxyribonuclease, phosphodiesterase and 3'-nucleotidase than those of two-rowed barley malts, while two-rowed barley malts contained significantly higher ribonuclease levels than those of six-rowed barley malts.

Sensory characteristics of acorn gels were evaluated as affected by acorn starch concentrations(7, 8, 9, 10 and 11%) and by soaking periods(4, 8 and 16 days) of acorn and acorn flour. The characteristics evaluated were color, clarity, firmness, cohesiveness, flavor and astringency. Panelists indicated in the scoring test that all the characteristics were pronounced as the starch concentration increased, except clarity, The result of ranking test on gels made with acorn starch soaked for 4, 8 or 16 days indicated that color, firmness, cohesiveness, flavor and astringency decreased, as soaking period increased. However, the soaking periods did not affect clarity of acorn gels.

Attempts were made to fix acetaldehyde on base materials, which were selected from carbohydrates, by freeze drying. More acetaldehyde was fixed, in general, on combined base materials than single base materials, and mannitol+lactose were the best among the combined base materials tested. But the combination of mannitol and maltodextrin appeared to be more economical for the mass production. Loss of acetaldehyde during freeze drying was decreased as the concentration of the combined base material was increased, and it reached minimum at 40% of the base material. As dryer chamber pressure was reduced, loss of acetaldehyde during drying was decreased.

Effects of cooking and drying methods on the lipids content and neutral lipid component of shrimp, Metapenaeus joyneri, were investigated. Total lipid content of the fresh shrimp was 6.0%(dry basis), which was not changed significantly depending on the cooking and drying methods. Lipid of the fresh shrimp was composed of 36.8% of neutral lipids, 21.5% of glycolipids, and 41.7% of phospholipids. Freeze dried shrimp was substantially higher in neutral lipid contents but lower in glycolipid and phospholipid contents than hot air dried one. Main components of the neutral lipids were triglycerides, free sterols, free fatty acids and esterified sterols. Freeze dried shrimp contained higher triglycerides contents than hot air dried shrimp, whereas free fatty acids content in hot air dried shrimp was greater than that of freeze dried one due to the decomposition of triglycerides to free fatty acids during hot air drying. Major fatty acid composition of the total lipid were palmitoleic acid, eicosapentaenoic acid and docosahexaenoic acid, and that of neutral lipid were palmitic acid, palmitic acid, oleic acid, eicosapentaenoic acid and docosahexaenoic acid in fresh shrimp.

Effects of cooking and drying methods on the composition of glycolipids and phospholipids of shrimp, Metapenaeus joyneri, were investigated. Major components of the glycolipids were esterified steryl glycosides, monogalactosyl diglycerides and steryl glycosides. Hot air drying enhanced the esterified steryl glycosides content substantially with the reduction of the monogalactosyl diglycerides content. However, reversed pattern was shown for freeze drying. Main components of the phospholipids were phosphatidyl ethanolamines, phosphatidyl cholines, phosphatidic acids, phosphatidyl inositols and phosphatidyl serines. Phosphatidic acids content for hot air and freeze dried shrimp without tooting was 8.3% and 5.9%, respectively. On the other hand, freeze dried shrimp with microwave heating was higher in phosphatidyl ethanolamines contents but lower in phosphatidyl cholines contents than hot air dried shrimp. Major fatty acids of the glycolipids and phospholipids fractions were pentadecanoic acid, palmitic acid, oleic acid, nervonic acid and eicosapentaenoic acid in fresh shrimp.

Optimal conditions of producing red pigment by Monascus anka, Nakazawa, et Sato, IFO 4478 and 6540 were found to be at pH 6.0 and for 10 days. When 3.0% steamed rice and 1.0% defatted sesame exfracts were used as substrates, the highest production of red pigment was yielded. Furthermore, mutants such as Monascus anka 4475-27 and 6540-185 induced by N -methyl-N-nitro-N-nitrosoguanidine (MNNG) treatment were found to produce pigment much more than parent strains.

This study aims at producing red pigment effectively by using protoplast fusion. Auxotrophic mutants of M. anka, were derived from M. anka, 4478-27. M. anka, and M. anka, were derived from M. anka, 6540-185. The optimal conditions of protoplast fromation were at time by using mixtures of chitinase (100mg/ml), cellulase (5mg/ml) and . The protoplast of those auxotrophic mutants were fused effectively, in the solution of 30% PEG , 0.05M-glycine, pH 6.0. Fusion frequencies were 0.70%-0.85%. Fusants, No. 14 and 42 produced highest red pigment among them.

To examine the potenital of APM as the sweetner of Kimchi, the change of APM (0.1%) added to Kimchi was monitore during the fermentation of Kimchi as . The content of APM added to Kimchi was ecreased to the extent of 20% after 20hrs by being decomposed into aspartylphenylalaine and phenylalanine. The decomposition degree of APM during the fermentation was only below 10% caused by the joint effects of lactic acid bacteria and pH and was disclosed as mainly led the reaction of enzymes contained in the raw chines cabbage. The decomposition of APM was inhibited by increasing the concentration of NaCl.

Large and small starch granules were isolated and characterized from kernels of Hiproly barley. Average size of large granules were and that of small granules were . The small granules consist of 95% of total starch granules. Large granules contained more amylose than small granules. Distribution of isoamylase-debranched starch components, X-ray diffraction patterns, gelatinization characteristics by differential scanning calorimetry, and starch-granule susceptibility to acid were investigated. Large granules contained more long B chains of amylopectin and had the lower ratios of Fr. III to Fr. II , which represent one of the structural characteristics of amylopectin, than those of small granules. Small granules had higher conclusion temperature and smaller heat of gelatinization than those of large granules by D.S.C.. Both granules had A-type pattern of X-ray diffractopgrams, but hydrolysis of granules with acid showed different A-type patterns between large and small granules.

Free amino acids in water-extracts and total amino acids in hydrolysates of three cultivated mushrooms, Agaricus bisporus, Pleurotus ostreatus and Lentinus edodes were analyzed by amino acid analyzer to know the compositional differences depending on species and portions (pileus and stipe). Eighteen amino acids were identified and quantified. The total nitrogen and protein nitrogen contents were in the range of 1.67-6.24% and 0.88-2.42% (dry basis), respectively. The considerable differences were often found among species and portions of mushrooms. All of them were found to be higher in the pileus part. The free amino acids conents in water-extracts were in the range of 10.04-37.85mg/g(dry weight) and the total amino acids contents in hydrolysates were in the range of 53.37-120.15mg/g(dry weight). Glutamic acid, serine, histidine, and alanine were dominent in the free amino acids pool and glutamic, aspartic acid, histidine, and alanine were in the total amino acids pool.

The changes of the contents of chemical components and sensory evaluation of Kimchis which were prepared by addition of different amounts of garlic were investigated during fermentation at for 8 days. The range of salinity of Kimchis was 1.8-2.0% The titratable acidity of Kimchis was rapidly increased with garlic contents during fermentation. Ascorbic acid was decreased with fermentation but increased with more addition of garlic. Total sugar content was decreased until third day and the free sugar content decreased to 0.8-1.1g/100g at the 8th day fermentation. It was found that lactic acid and succinic acid were relatively high among the nonvolatile organic acids. The lactic acid content increased with the addition of garlic while succinic acid was not certain. During the whole fermentation, the result of sensory evaluation suggested that Kimchis contained more than 2g garlic were more palatable and desirable than eliminated garlic.

The rheological properties of sugar and cocoa particle suspensions in cocoa butter under molten condition were analyzed with Haake rotationary viscometer. Both suspensions had yield value and showed rheopexy at low shear rate and thixotropy at high shear rate. Flow behaviors of the suspensions were analyzed with modified Casson model. Casson viscosity and yield value increased with increasing the concentration of sugar and cocoa particles. There was an obvious dependence of the Casson viscosity and yield value on the particle size distributions that was represented by the Sauter mean diameter of the particles. Casson viscosity and yield value of cocoa butter-sugar suspension increased with increasing the fineness of sugar particle crystal. With increasing the fineness of cocoa particle a decreasing Casson viscosity of cocoa butter-cocoa particle suspension was achieved, but the yield value did not change significantly with cocoa particle size. Therefore, it was predicted that the best rheological properties of chocolate could be obtained with the combination of coarse ground sugar and fine ground cocoa particle within the studied range.

The structural properties of covered and naked barley starches and those components were investigated. of covered and naked barley starches were 58.6 and 56.3%, respectively and those of their amyloses and amylopectins were 87.0, 77.7, 57.6 and 52.0%, respectively. The ratios of outer chain length and inner chain length for amylopectins of covered and naked barley were about 2.2:1 and 2.0:1, respectively. The elution curves by Sephadex G-75 after debranching starches with pullulanase were similar patterns for two starches and yielded two peaks consisting of amylose component${\overline{dp}}>55$ and bimodal amylopectin components of and hydrolysates. Also, hydrolysis products by sequential hydrolysis with pullulanase and contained 0.03-0.5% non-hydrolyzed peak components of ${\overline{dp}}>55$. The elution profiles of hydrolysates yielded two peaks consisting of the inner components${\overline{dp}}>55$ and the outer chain components of amylopectin${\overline{dp}}>10$ regardless of samples. However, distributions of ${\overline{dp}>55}$ hydrolysates exhibited the significant differences due to the varieties.

To investigate the effect of NaCl concentration and nitrogen sources in the medium for the Streptococci on the intra- and extracellular proteinase(ICP and ECP) which have been known as one of the major causes for the bitter peptide formation, Streptococcus lactis and Streptococcus cremoris strains were incubated at 0-4% NaCl in the medium and Na-caseinate as a nitrogen source 0-100%, and the cell growth, ICP and ECP activities were analyzed. As the concentration of the NaCl in the medium increased, the growth and ECP activity decreased but the ICP cells increased on the contrary. This implied that the NaCl in the medium affects only the ECP which is associated mainly to the cell wall and cell membrane but not the ICP activity. When the content of the caseinate instead of other low molecular nitrogen sources were increased in the medium, the cell growth was lowered while the ECP activities increased probably by induction of proteinase production.

The soy milk prepared from soy protein concentrate was treated with pretense of various concentrations. Growth and acid production by Lactobacillus acidophilus or L. bulgaricus in soy milk containing partially hydrolyzed protein were investigated. Sensory evaluation of soy yogurt beverages prepared from pretense treated soy milk was also performed. The treatment of soy milk with pretense markedly enhanced acid production by lactic acid bacteria, particularly by L. acidophilus, whereas pH and number of viable cells were not .affected by pretense treatment. Protease treatment of 15 minutes greatly enhanced acid production by lactic acid bacteria, but further treatment up to three hours did not affect the acidity markedly. The sensory evaluation showed that overall acceptability of soy yogurt beverages was slightly improved when soy milk was treated with pretense of 0.1%. The amount of non-protein nitrogen was considerably increased by pretense treatment of 15 minutes and it reached the maximum value by treatment of two hours.

A study relating the sugar contents of radishes to the final titratable acidities(TA) after complete fermentation was conducted to get an idea of selecting radish varieties to improve storage stabilities of fermented pickled radish cubes. Thirty six varieties of spring-sowing and thirty four varieties of autumn-sowing radishes were chosen to ferment to measure their final TA in relation to their sugar contents. The sugar contents of spring-sowing radishes were in the range from 2.40 to and the final TA ranged from 1.15 to 1.65%. The sugar contents of autumn-sowing radishes were in the range from 4.00 to and the final TA ranged from 1.45 to 2.00%. The final TA obtained after complete fermentation were found to be directly proportional to the sugar contents of radishes, showing that TA equals to 0.29x+0.4428, where x is sugar content of radish. From the equation, since a properly aged fermented pickled vegetable is believed to have a TA range from 0.6 to 0.8%, a radish of a sugar content ranging from 0.6 to will make fermented pickled radish cubes which will not be overacidified during the prolonged storage period.

To improve the storage method of Kimchi, optimum ripening Kimchi for an irradiation treatment(the time of around 0.3% in total acidity of Kimchi) was irradiated by doses of 1, 2, 3 kGy with Co-60 and stored at . Total aerobic bacteria increased in the beginning of storage and then decrease slowly as the number of total lactic acid bacteria increased. Total lactic acid bacteria initially loaded by in Kimchi shortly after irradiation reduced to with 1-3 kGy doses and decreased gradually through the whole storage period. The initial load of yeast, , increased steadily during Kimchi storage and led to more than after 30 days of storage. While it maintained tha the load in 2-3 kGy irradiated groups after 30 days of storage was less than that at the beginning of storage. pH, acidity and volatile acid in the nonirradiated group were 4.0, 0.7% and 0.06%, respectively at the 15th day after storage, but at the 30th day after storage, 2-3 kGy irradiated groups showed different values, 4.1, 0.58-0.63%, and 0.04-0.05%, respectively. The texture(firmness) of Kimchi reduced along with storage time, and 2 kGy irradiated group proved most favourable in its texture during storage. In the sensory evaluation of Kimchi, nonirradiated group was inedible after 15 days of storage, whereas 2-3 kGy irradiated groups could proling the storage-life of Kimchi over 2 times compared with the nonirradiated Kimchi, showing the good sensory quality even after 30 days of storage.

Streptococcus diacetylactis and Leuconostoc cremoris were isolated from commercial culture and the effects of culture conditions on the diacetyl production by these strains and their mixture(1:1) were investigated. Optimum temperatures and culture times for the diacetyl production by Str. diacetylactis, Leu, cremoris and their mixture were 60hr at (diacetyl content, 2.24ppm), 48hr at (2.29ppm) and 48hr at (2.21ppm), respectively Optimum initial pH for the diacetyl production by Str. diacetylactis, Leu. cremoris and the mixture were all 4.8(4.32, 6.66, 7.30ppm, respectively) and optimum sodium citrate concentrations(%, w/v) were 0.30(2.58ppm), 0.1(2.54ppm) and 0.1(2.52ppm), respectively. The diacetyl contents were gradually increased according as inoculation rates(%, w/v) were increased. The amounts of diacetyl produced under optimum conditions at 24hr incubation by Str. diacetylactis, Leu. cremoris and the mixture were 4.40, 6.59 and 7.25ppm, respectively. The most effective factor affecting diacetyl production under optimum condition was pH.

The volatile components of nutmeg, cumin, cardamon, turmeric, coriander, clove, allspice, cassia, fennel, celery seed and black pepper, having a characteristic spicy aroma and being used as an ingradient of curry powder, were investigated. After steam distillation followed by extraction with diethyl ether: n-pentane(2:1, v/v) mixture, the volatile components were identified by capillary GC and GC/MS. As a result, following major compounds were identified. , and myristicin(19.98%) in nutmeg, cuminaldehyde(37.68%) in cumin, and 1, 8-cineol(20.56%) in cardamon, linalool(61.72%) in coriander, eugenol(63.63%) and eugenol acetate(20.59%) in clove, eugenol(80.12%) and methyl eugenol(10.85%) in allspice, cinnamaldehyde(82.29%) in cassia, anethole(79.92%) in fennel.

The purification of myrosinase from radish roots was performed using Concannavalin A-Sepharose affinity chromatography and gel permeation HPLC, which gave a 22-fold-purification(S.P.A.=39,000 units/mg) with 50% recovery, SDS-polyacrylamide gel electrophoresis showed a single major band, suggestive of a relatively pure myrosinase, and the M.W. of the enzyme determined on gel permeation HPLC was ca. 124K. The enzyme showed on optimum pH of 6.5 and was stable at pH 6 to 7 at room temperature, but unstable below pH 4. The enzyme possessed an optimum temperature of , and gave a Vmax value of and a Km value of 0.12mM for sinigrin. The purified myrosinase was activated maximally by 0.6mM of ascorbic acid, but somewhat inhibited by more than 2 mM ascorbic acid. The activities of myrosinase present in the peelings and the peeled radish amounted to approximately 1,333 units/g and 140 units/g weight, respectively and the peelings contained much more myrosinase activity than the peeled radish.

Shiitake mushrooms were dried by hot air, far infrared and freeze dryers in order to compare qualities after drying. When hot air drying was performed with the four temperature variations ranged from , there was tendency to increase volume retention but decrease rehydration ratio, as drying temperature increased. And the largest amout of 5'-GMP was contained in mushroom dried at . For far infrared drying, volume retentions were lower but rehydration ratios were higher, as compared with hot air drying at the same temperature. In freeze drying, freezing rate had no influence on volume retention but rehydration ratio was highest value when frozen at . As shelf temperature increased(drying rate increased), rehydration ratio increased. Also, contents of 5'-AMP, 5'-GMP and 5'-XMP increased with the increase of freezing rate and drying rate.

Polygalacturonase(PG) and pectinesterase(PE) were extracted from Chinese cabbage and physicochemical properties of the enzymes were characterized. The preheating conditions for maximum retention of Kimchi texture were also studied. The activity of PE was highest at and at 0.02M but decreased in 0.2M , PG exhibited maximum activity at with 0.3mM but was inhibited by at 0.5mM. Both of the enzymes, however, exhibited the maximum activity with 0.25M NaCl. Optimum preheating treatment was determined for minimum PG activity and maximum PE activity. Thus a maximum crispness and firmness was obtained with preheating in 0.05M solution at for 1.5hr results indicated that PE activity and calcium ion were very effective in preserving firmness.

This studies were designed to improve the productivity of L-lysine by protoplast fusion and immobilized system of fusants using strains of Brevibacterium flavum ATCC 21528, Brevibacterium lactofermentum ATCC 21086 and Corynebacterium glutamicum 820. Mutants were isolated with concentration method of penicillin-G after treatment of N-methyl-N-nitro-N-nitrosoguanidine. B. flavum , B. lactofermentum and C. glutamicum 57-5 were isolated from mutants. Protoplasts were induced by being incubated with lysozyme of lysis solution for 6 hr and the ratio of protoplast formation and regeneration were ranging from 97-99% and 33-37%, respectively. Fusion frequencies of fusants of BBFL 21, BCFG 37 and BCLG 59 were shown in the range from under the optimum conditions. The fusant BBFL 21 showed the highest productivity of L-lysine in the lysine productivity broth at for 72hr. In the immobilization systems, fusant BBFL 21 was employed in various polymer matrices such as sodium alginate, polyacrylamide, agar and . The immobilization of sodium alginate showed the highest productivity of L-lysine in the batch system. Continuous fermentation of immobilization system by using tube fermentor was produced the highest productivity L-lysine under optimum condition.

The formation of galactooligosaccharides by transgalactosidation reactions during hydrolysis of lactose by the from Streptococcus thermophilus 510 was investigated. Three oligosaccharides were detected during hydrolysis. It was found that the optimum conditions for the production of oligosaccharides was 40% lactose treated with at for 4 hours. The oligosaccharides formed accounted for 30% of the total sugars when the lactose had been 94% hydrolysed. 69% of the oligosaccharides were identified as and 23% as . The separation of galactooligosaccharides by the use of Bio-Gel P-2 gel permeation chromatography was also studied.